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The BRCA1 BRCT promotes antisense RNA production and double-stranded RNA formation to suppress ribosomal R-loops

Chou-Wei Chang, Anup K. Singh, Min Li, Li Guan, Nhung Le, Kenneth Omabe, Feng Liang, Yilun Liu

2022Proceedings of the National Academy of Sciences14 citationsDOIOpen Access PDF

Abstract

R-loops, or RNA:DNA hybrids, can induce DNA damage, which requires DNA repair factors including breast cancer type 1 susceptibility protein (BRCA1) to restore genomic integrity. To date, several pathogenic mutations have been found within the tandem BRCA1 carboxyl-terminal (BRCT) domains that mediate BRCA1 interactions with proteins and DNA in response to DNA damage. Here, we describe a nonrepair role of BRCA1 BRCT in suppressing ribosomal R-loops via two mechanisms. Through its RNA binding and annealing activities, BRCA1 BRCT facilitates the formation of double-stranded RNA between ribosomal RNA (rRNA) and antisense-rRNA (as-rRNA), hereby minimizing rRNA hybridization to ribosomal DNA to form R-loops. BRCA1 BRCT also promotes RNA polymerase I-dependent transcription of as-rRNA to enhance double-stranded rRNA (ds-rRNA) formation. In addition, BRCA1 BRCT-mediated as-rRNA production restricts rRNA maturation in unperturbed cells. Hence, impairing as-rRNA transcription and ds-rRNA formation due to BRCA1 BRCT deficiency deregulates rRNA processing and increases ribosomal R-loops and DNA breaks. Our results link ribosomal biogenesis dysfunction to BRCA1-associated genomic instability.

Topics & Concepts

Ribosomal RNABiologyRNA5S ribosomal RNARNA polymerase IMolecular biology5.8S ribosomal RNARibosomal DNA18S ribosomal RNAGeneticsNon-coding RNARNA-dependent RNA polymeraseGenePhylogeneticsDNA Repair MechanismsCRISPR and Genetic EngineeringRNA and protein synthesis mechanisms